This module lets you call methods of a certain object more easily by exporting them as functions to a package. The exported functions are not called as methods and do not receive an object argument, but instead the object is fixed at the time you import them with this module.

You use the module with the following syntax:

use Object::Import $object, %options;

Here, $object is the object from which you want to import the methods. This can be a perl object (blessed reference), or the name of a package that has class methods.

As usual, a use statement is executed in compile time, so you should take care not to use values that you compute only in run-time, eg.

but in that case, you can't call the imported functions without parenthesis.

If you don't give an explicit list of methods to export, Object::Import tries to find out what callable methods the object has and import all of them. Some methods are excluded from exporting in this case, namely any methods where exporting would overwrite a function existing in the target package or would override a builtin function, also any methods with names that are special to perl, such as DESTROY, and any methods whose name starts with an underscore. This automatic search for methods is quite fragile because of the way perl OO works, so it can find subroutines that shouldn't actually be called as methods, or not find methods that can actually be called. In particular, even if you import an object from a purely object oriented module, it can find non-method subs imported from other (non-OO) modules.

If you do give a list of methods to export, Object::Import trusts you know what you mean, so it exports all those subs even if it has to replace existing subs or break something else.

Signals that the first import argument, instead of being the object itself, is a reference to a scalar that contains the object.

The content of this scalar may later be changed, and the imported functions will be called on the new contents. (The scalar may even be filled with undef, as long as you don't call the functions at that time.) If you don't pass the list of methods explicitly, the content of the scalar at the time of the import is used for determining the methods as a template to determine the methods. If, however, you give the list of methods, the content of the scalar is not examined at the time of the import.

Sets a list of additional sub names which the module must never use as names of imported subs. These names are thus compared not with the original method names, but the names possibly transformed by adding prefixes and suffixes. This applies even if you give an explicit list of methods to import.

Save the (unqualified) names of the functions exported by adding them as a key to a hash (the value is incremented with the ++ operator). This could be useful if you wanted to reexport them with Exporter. $arrayref must be a real reference to a hash, not an undef.

Do not warn when an existing sub is redefined. That is currently only possible if you give the list of methods to be exported explicitly with the list option, because if the module chooses automatically then it will not redefine subs.

Suppress the warning when you try to import methods from an object you might have passed in by mistake. Namely the object could be the name of a nonexistent package, a string that is not a valid package name, an unblessed object, or undef. Such values either don't currently have any methods, or calling methods on them is impossible. That warning often indicates that you passed the wrong value to Object::Import or forgot to require a package.

It is possible to use an IO handle as the object to export methods from. If you do this, you should require IO::Handle first so that the handle actually has methods. You should probably also use the prefix or suffix option in such a case, because many methods of handles have the same name as a builtin function.

The handle must not be a symbolic reference, whether qualified or unqualified, eg.

open FOO, "<", "somefile" or die;
use Object::Import "FOO"; # WRONG

You can pass a handle as a glob, reference to glob, or an IO::Handle object, so any of these would work as the object after the above open statement: *FOO, \*FOO, *FOO{IO}. Another way to pass an IO::Handle object would be like this:

The deref option deserves special mention. This option adds a level of indirection to the imported functions: instead of them calling methods on an object passed to import, the methods are called on the object currently contained by a scalar to which a reference is passed in to import. This can be useful for various reasons: operating on multiple objects throughout the course of the program, being able to import the functions at compile time before you create the object, or being able to destroy the object. The first of this use is straightforward, but you may need to know the following for the other two uses.

The list of methods imported is decided at the time you call import, and will not be changed later, no matter how the object is changed or methods the object supports are changed. You thus have to do extra loops if you want to call import before the object is available. The simplest solution is to pass the list of methods you want explicitly using the list option. If for some reason you don't want to do this, you need to fill the scalar with a suitable prototype object that has all the methods of the actual object you want to use. In many cases, the package name the object will be blessed to is a suitable prototype, but note that if you do not control the module implementing the object, then that module may not guarantee what package the object will actually be blessed to: the package may depend on some run-time parameters and the details about this could change in future versions of the module. This is, of course, not specific to the deref option, but true to a lesser extent to any case when you're using Object::Import without an explicit list of methods: a future version of the module could create the methods of the class in runtime or AUTOLOAD them without declaring them, or it could add new private methods that will clash with function names you're using. Nevertheless, using the classname as a prototype can be a useful trick in quick and dirty programs, or if you are in control of the implementation of the object.

Now let's hear about destroying an object that may hold resources you want to free. Object::Import guarantees that if you use the deref option, it does not hold references to the object other than through the one scalar, so if undef the contents of that scalar, the object will be freed unless there are references from somewhere else.

Finally, there's one thing you don't want to know but I must document it for completeness: if a method called through Object::Import changes its invocant (zeroth argument), that will also change the object the imported functions refer to, whether you use the deref option or not, and will change the contents of the scalar if you use the deref option.

An earthquake with magnitude 7.0 occurred near South Island, New Zealand at Saturday 04:35:44 AM local time (16:35:44 UTC). The earthquake occurred at a depth of 16.1 kilometers (10.0 miles). The earthquake was reported to have caused widespread damage and power outages. Several aftershocks were also reported.

In this, get refers to the useragent object; is_success, content and message refers to the response object (and these must be called with a parenthesis); while parse and first_elt refer to the twig object. This is not a good example to follow: it's quite fragile, and not only because of the simple regex used to parse out the right parts, but because if a new sub is added to a future version of the LWP::UserAgent or HTTP::Response classes, they might suddenly get imported and would shadow the methods we're supposed to import later.

This code is the same as above, except that instead of supplying a list of methods, we use a prototype object, namely the Math::BigInt package. At least one of the two is needed, for otherwise Object::Import would have no way to know what methods to import.

The primary author and maintainer of this module is Zsban Ambrus ambrus@math.bme.hu. Some of the code was written by Max Maischein, who also gave the motivation to turn a prototype to the full module you see. Thanks to exussum0 for the original inspiration.

This program is free software: you can redistribute it and/or modify it under the terms of either the GNU General Public License version 3, as published by the Free Software Foundation; or the "Artistic License" which comes with perl.

This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.